Power systems-on-chip : practical aspects of design / edited by Bruno Allard.

Format:

Book

Contributor:

Allard, Bruno, editor.

Series:

Enery Series

Language:

English

Subjects (All):

Computer-aided design.

Physical Description:

1 online resource (307 pages) : color illustrations.

Edition:

1st ed.

Place of Publication:

London, England ; Hoboken, New Jersey : ISTE : Wiley, 2016.

Summary:

The book gathers the major issues involved in the practical design of Power Management solutions in wireless products as Internet-of-things. Presentation is not about state-of-the-art but about appropriation of validated recent technologies by practicing engineers. The book delivers insights on major trade-offs and a presentation of examples as a cookbook. The content is segmented in chapters to make access easier for the lay-person.

Contents:

Intro

Table of Contents

Title

Copyright

Preface

Introduction

1 Control Strategies and CAD Approach

1.1. Objectives

1.2. Operation principle of three non-isolated converters

1.3. Power stage

1.4. Control stage

1.5. Minimum voltage deviation controller

1.6. CAD tools for PwrSoC design and optimization

1.7. Conclusion

2 Magnetic Components for Increased Power Density

2.1. Commercial and research trends towards PwrSiP and PwrSoC

2.2. Review of magnetics

2.3. Figures of merit for performance of integrated magnetics

2.4. Technology roadmap and challenges

2.5. Conclusions

2.6. Acknowledgments

3 Dielectric Components for Increased Power Density

3.1. Introduction

3.2. Basics of dielectric physics

3.3. Silicon integrated capacitors

3.4. Integrated capacitors for enhanced reliability

3.5. Integrated capacitor optimization for power switching

3.6. Conclusion

4 On-board Power Management DC/DC Inductive Converter

4.1. Specifications

4.2. Current-mode sliding-mode control implementation

4.3. Conclusions

5 On-Chip Power Management DC/DC Switched-Capacitor Converter

5.1. Topology description

5.2. Pros and cons

5.3. State-of-the-art

5.4. Design example

6 High-Switching Frequency Inductive DC/DC Converters

6.1. Context and topologies

6.2. Cascode power stage

6.3. High-quality decoupling

6.4. Design considerations for passive components

6.5. Integrated inductor characterization

6.6. Conclusion

6.7. Acknowledgments

7 Hybrid and Multi-level Converter Topologies for On-Chip Implementation of Reduced Voltage-Swing Converters

7.1. Introduction

7.2. Cascaded hybrid SC-inductive topologies

7.3. Hybrid serial input/output converters.

7.4. An on-chip integrated high-density power management solution for portable applications based on a multi-output switched-capacitor circuit

7.5. Multi-level and flying capacitor multi-level converters

7.6. Conclusion

Bibliography

List of Acronyms

List of Authors

Index

End User License Agreement.

Notes:

Includes bibliographical references and index.

Description based on print version record.

ISBN:

9781119377702

1119377706

9781119377726

1119377722

9781119377689

1119377684

OCLC:

965157855